Patent application number | Description | Published |
20100081893 | ACOUSTIC PALPATION USING NON-INVASIVE ULTRASOUND TECHNIQUES TO IDENTIFY AND LOCALIZE TISSUE ELICITING BIOLOGICAL RESPONSES AND TARGET TREATMENTS - Methods and systems for identifying and spatially localizing tissues having certain physiological properties or producing certain biological responses, such as the sensation of pain, in response to the application of intense focused ultrasound (acoustic probing or palpation) are provided. In some embodiments, targeted acoustic probing may be guided or visualized using imaging techniques such as ultrasound imaging or other types of non-invasive imaging techniques. | 04-01-2010 |
20100087728 | ACOUSTIC PALPATION USING NON-INVASIVE ULTRASOUND TECHNIQUES TO IDENTIFY AND LOCALIZE TISSUE ELICITING BIOLOGICAL RESPONSES - Methods and systems for identifying and spatially localizing tissues having certain physiological properties or producing certain biological responses, such as the sensation of pain, in response to the application of intense focused ultrasound (acoustic probing or palpation) are provided. In some embodiments, targeted acoustic probing may be guided or visualized using imaging techniques such as ultrasound imaging or other types of non-invasive imaging techniques. | 04-08-2010 |
20120108918 | Acoustic Palpation Using Non-Invasive Ultrasound Techniques for Identification of Target Sites and Assessment of Chronic Pain Disorders - Methods and systems for identifying and spatially localizing tissues having certain physiological properties or producing certain biological responses, such as the sensation of pain, in response to the application of intense focused ultrasound (acoustic probing or palpation) are provided. In some embodiments, targeted acoustic probing is employed to identify the scope and severity of chronically painful sensitized tissue areas, and of chronic pain disorders. In other applications, targeted acoustic probing is used to localize nerves and other sensitized tissues for guidance of needles and other delivery devices, and for delivery of anesthetic, analgesic or therapeutic compositions. | 05-03-2012 |
20140039279 | ACOUSTIC PALPATION USING NON-INVASIVE ULTRASOUND TECHNIQUES FOR IDENTIFICATION OF TARGET SITES AND ASSESSMENT OF CHRONIC PAIN DISORDERS - Methods and systems for identifying and spatially localizing tissues having certain physiological properties or producing certain biological responses, such as the sensation of pain, in response to the application of intense focused ultrasound (acoustic probing or palpation) are provided. In some embodiments, targeted acoustic probing is employed to identify the scope and severity of chronically painful sensitized tissue areas, and of chronic pain disorders. In other applications, targeted acoustic probing is used to localize nerves and other sensitized tissues for guidance of needles and other delivery devices, and for delivery of anesthetic, analgesic or therapeutic compositions. | 02-06-2014 |
Patent application number | Description | Published |
20080269880 | Blood pump bearings with separated contact surfaces - Rotary hydrodynamic blood pumps have been used to treat over a thousand patients. The Jarvik 2000 has supported a patient for seven years and uses blood immersed bearings washed by high flow to avoid excessive thrombus formation. This permits the pump to be very simple and small. Nonetheless, the present Jarvik 2000 bearings and all other mechanical blood immersed bearings of the prior art have a supporting structure that predisposes to thrombus adjacent to the bearings. The present invention provides a bearing structure that eliminates this predilection site for thrombus formation, and may provide indefinite thrombus free operation. The rotor of the preferred embodiment includes a tapered hub fabricated of wear resistant material supported by three posts at each end of the rotor, upon which the rotor rotates. Blood washes the unobstructed spaces between the posts to prevent the accumulation of a torus of thrombus that could enlarge excessively. | 10-30-2008 |
20100121438 | Sub-miniature electromechanical medical implants with integrated hermetic feedthroughs - Highly miniaturized electromechanical medical implants for certain applications cannot be fit into the available anatomic space unless their diameter can be made small enough. With devices such as rotary blood pumps or linear actuators, using rotary or linear electric motors, a thin motor stator that provides sufficient power must be encased in a corrosion resistant hermetically sealed enclosure into which electric wires must pass. Hermetic feedthroughs of the prior art are not structurally suited to maximal miniaturization with optimal electrical properties because of the need for welding of ferrules or other support components. The sub-miniature medical implants having the robust feedthrough of the present invention integrate the feedthrough wires, insulators, and sealing within a radially extending flange that is part of the end wall of the motor enclosure. This permits the largest feedthrough wire and thickest insulator to be built into the limited available space. | 05-13-2010 |
20100249489 | Intraventricular blood pumps anchored by expandable mounting devices - An intraventricular blood pump is retained in position by an expandable stent placed in the aorta that anchors to the aortic wall. The pump ejects blood across the aortic valve either through a conduit or as a free stream of blood without a mechanical conduit passing between the valve leaflets. The ejection of blood causes a reactive force pushing the pump towards the ventricular apex and away from the valve. Thus, the pump may be held by three filaments connecting it to the anchoring stent. Other flexible members such as a tube made of pericardium, sutures, or a rigid rod may be used to hold the pump in place. The preferred embodiment includes an apically introduced stent anchored aortic valve having two flexible tissue leaflets and a conduit channeling blood from the pump in the ventricle into the aortic root and passing through the non-coronary sinus in the position usually occupied by the non-coronary cusp of the aortic valve. This device can be surgically implanted through a small incision without the need for cardiopulmonary bypass in elderly or severely ill patients who cannot safely undergo more invasive surgery. Pumps using durable bearings and hermetically sealed motors are combined with tissue valves such that the entire device is durable for many years. | 09-30-2010 |
20110008149 | BLOOD PUMP BEARINGS WITH SEPARATED CONTACT SURFACES - Rotary hydrodynamic blood pumps have been used to treat over a thousand patients. The Jarvik 2000 has supported a patient for seven years and uses blood immersed bearings washed by high flow to avoid excessive thrombus formation. This permits the pump to be very simple and small. Nonetheless, the present Jarvik 2000 bearings and all other mechanical blood immersed bearings of the prior art have a supporting structure that predisposes to thrombus adjacent to the bearings. The present invention provides a bearing structure that eliminates this predilection site for thrombus formation, and may provide indefinite thrombus free operation. The rotor of the preferred embodiment includes a tapered hub fabricated of wear resistant material supported by three posts at each end of the rotor, upon which the rotor rotates. Blood washes the unobstructed spaces between the posts to prevent the accumulation of a torus of thrombus that could enlarge excessively. | 01-13-2011 |
20110236187 | BLOOD PUMP BEARINGS WITH SEPARATED CONTACT SURFACES - Rotary hydrodynamic blood pumps have been used to treat over a thousand patients. The Jarvik 2000 has supported a patient for seven years and uses blood immersed bearings washed by high flow to avoid excessive thrombus formation. This permits the pump to be very simple and small. Nonetheless, the present Jarvik 2000 bearings and all other mechanical blood immersed bearings of the prior art have a supporting structure that predisposes to thrombus adjacent to the bearings. The present invention provides a bearing structure that eliminates this predilection site for thrombus formation, and may provide indefinite thrombus free operation. The rotor of the preferred embodiment includes a tapered hub fabricated of wear resistant material supported by three posts at each end of the rotor, upon which the rotor rotates. Blood washes the unobstructed spaces between the posts to prevent the accumulation of a torus of thrombus that could enlarge excessively. | 09-29-2011 |
20140039241 | SUB-MINIATURE ELECTROMECHANICAL MEDICAL IMPLANTS WITH INTEGRATED HERMETIC FEEDTHROUGHS - Highly miniaturized electro-mechanical medical implants for certain applications cannot be fit into the available anatomic space unless their diameter can be made small enough. With devices such as rotary blood pumps or linear actuators, using rotary or linear electric motors, a thin motor stator that provides sufficient power must be encased in a corrosion resistant hermetically sealed enclosure into which electric wires must pass. Hermetic feedthroughs of the prior art are not structurally suited to maximal miniaturization with optimal electrical properties because of the need for welding of ferrules or other support components. The sub-miniature medical implants having the robust feedthrough of the present invention integrate the feedthrough wires, insulators, and sealing within a radially extending flange that is part of the end wall of the motor enclosure. This permits the largest feedthrough wire and thickest insulator to be built into the limited available space. | 02-06-2014 |
20140128967 | Support Stent for Transvalvular Conduit - Miniature axial flow pumps are implanted inside the heart or major arteries to provide hemodynamic support. These pumps commonly utilize tubular blood conduit tubes to transport blood across the aortic valve. The valve leaflets themselves are very thin and flexible, and will seal against the conduit if it is centered within the valve orifice. If the conduit is not centered, a leaflet can be pushed to the side of the aorta, preventing the leaflets from sealing and providing a path for backflow. If the blood flow conduit remains pushed against the side of the valve for a long period of time, thrombus may form in the crevice between the conduit and the aorta, causing serious thromboembolic events such as stroke, if the thrombus breaks free. The present invention provides a conduit support device that retains the conduit centered within the annulus of the natural heart valve. A leaflet valve stent may be combined with a conduit support device comprised of a ring supported by posts attached to the valve stent ring. A blood pump may be attached to the center of a transvalvular support stent, for optimal fixation of the pump with relation to a trileaflet or bi-leaflet tissue or polymer valve. | 05-08-2014 |